CN104162780A - Full-automatic dead bolt machining unit - Google Patents

Abstract

The invention relates to a full-automatic dead bolt machining unit. The full-automatic dead bolt machining unit comprises a machine frame of a frame-shaped structure. A rotating disc clamping and conveying device is arranged on a platform of the machine frame. A segmentation device, a longitudinal conveying and punching mechanism, a transverse punching mechanism and a grind-flat mechanism are arranged on the outer ring of the rotating disc clamping and conveying device. The output end of the segmentation device is connected with the longitudinal conveying and punching mechanism trough a conveyor belt. The output end of the longitudinal conveying and punching mechanism is connected with the rotating disc clamping and conveying device. The full-automatic dead bolt machining unit is compact and reasonable in structure and easy and convenient to operate; dead bolt materials are segmented one by one through the segmentation device, segmented dead bolts enter the clamping device through the conveyor belt to be clamped, longitudinal punching is conduced on the segmented dead bolts after the segmented dead bolts are clamped, and the segmented dead bolts are conveyed to the clamping mechanism of a rotating disc to be clamped after punching is conducted; the rotating disc rotates to sequentially conduct the transverse punching operation procedure and the grind-flat operation procedure on a workpiece, and finally discharging and outputting are conducted; the full-automatic dead bolt machining unit is convenient and rapid to operate and high in production efficiency.

Description

The full-automatic processing machine of side's tongue

Technical field

The present invention relates to machining technique field, the full-automatic processing machine of especially a kind of side's tongue.

Background technology

Dead bolt is the element of lock, and lock is to rely on dead bolt that lock body and dead bolt casket are coupled together and bring into play anti-theft function, thereby rotational lock core can drive the flexible switch of controlling lock body of dead bolt.The shapes such as the dead bolt shape side of having tongue, latch bolt, hook tongue, the processing for square tongue in prior art adopts manual operation conventionally, and dead bolt is carried out to perforate one by one, and operation is loaded down with trivial details, inefficiency.

Summary of the invention

The applicant, for the shortcoming in above-mentioned existing production technology, provides a kind of full-automatic processing machine of square tongue rational in infrastructure, thereby the streamline of the side's of realization tongue processing is easily increased work efficiency.

The technical solution adopted in the present invention is as follows:

The full-automatic processing machine of a kind of side's tongue, the frame that comprises frame-shaped structure, rotating disk clamping conveying device is installed on the platform of described frame, the outer ring that is positioned at rotating disk clamping conveying device is separately installed with sectioning, longitudinally carries perforating mechanism, horizontal perforating mechanism and polish mechanism, the output of described sectioning is connected with longitudinally carrying perforating mechanism by conveyer belt, and the output of described longitudinal conveying perforating mechanism is connected with rotating disk clamping conveying device.

Further improvement as technique scheme:

The structure of described sectioning is: comprise shut-off mechanism, one side of described shut-off mechanism is provided with feed mechanism, the structure of described shut-off mechanism is: comprise the first base, on described the first base, fix the 3rd base plate, on described the 3rd base plate, the first riser is vertically installed, one side of described the first riser is provided with the 3rd guide rail, on described the 3rd guide rail, by the first slide block, the first slide plate is installed, on described the first slide plate, be fixed with the first reductor, the output of described the first reductor is installed cutter, described the first reductor drives by the first motor, described the first motor fixing with motor mount on, the opposite side that is positioned at the first riser is also provided with the first guide rod, described the first guide rod is installed on the 3rd contiguous block, described the 3rd contiguous block and the first slide plate clamping, be positioned on the 3rd base plate and be also fixed with the first lift cylinder, and the output of described the first lift cylinder and the 3rd contiguous block are affixed, two gripper shoes are also installed on described the first riser, the structure of described feed mechanism is: comprise the second base, on described the second base, be arranged at intervals with two the second risers, on described the second riser, be fixed with the first mount pad, on described the first mount pad, be provided with the 4th guide rail, on described the 4th guide rail, by the second slide block, the second slide plate is installed, on described the second slide plate, be fixed with second and move cylinder and the second guide pad, on described the second guide pad, the second guide pillar is installed, described the second guide pillar head moves cylinder by the second contiguous block and second and is connected, the outer end that is positioned at the first mount pad is also fixed with the first cylinder, the output of described the first cylinder and the second slide plate butt, be positioned at the first guide pad is also installed on the first mount pad, on described the first guide pad, be separately installed with the first guide pillar and joint pin, the second cylinder is fixed in the bottom surface that is positioned at the first mount pad, the output of described the second cylinder is vertically fixed with the first contiguous block, the top of described the first contiguous block and joint pin clamping, described the first guide pad and the second guide pad are positioned at same linear position, the bottom that is positioned at the first mount pad is also provided with the second lift cylinder.

The structure of described the first guide pad is: described the first guide pad becomes rectangular structure, the top of described the first guide pad has notch, the middle part of described the first guide pad has the first dead bolt reach through hole through dead bolt, and a side that is positioned at the first guide pad has the first guide pillar installing hole and joint pin installing hole.

The structure of described the second guide pad is: shown in the second guide pad become rectangular structure, the top of described the second guide pad has square groove, described the second guide pad middle part has the second dead bolt reach through hole through dead bolt, and a side that is positioned at the second guide pad has the second guide pillar installing hole.

Described rotating disk clamping conveying device structure is: the rotating disk that comprises the circular structure in cross section, the bottom that is positioned at rotating disk is provided with the 4th base, be positioned at rotating disk middle part and by the second mount pad, be fixed with the second motor above, the output revolving shaft of described the second motor is connected with rotating disk; The even interval of circumferencial direction of described rotating disk is provided with a plurality of clamp mechanism, be positioned in one of them clamp mechanism shedding mechanism is installed, the structure of described shedding mechanism is: comprise right angle rack, the upper end sidepiece of described right angle rack is fixed with the 3rd and moves cylinder, the described the 3rd output and the 3rd guide pad that moves cylinder fixed, described the 3rd guide pad middle part is installed and is pushed away post, and the top that is positioned at the 3rd guide pad is provided with to control and pushes away the 3rd telescopic cylinder that post moves up and down, described in push away the lead butt of post and clamp mechanism.

The structure of described clamp mechanism is: comprise the underframe mounting blocks that is fixed on rotating disk bottom, described underframe mounting blocks becomes bending shape structure, bending part clamping first underframe of described underframe mounting blocks, the 3rd cylinder is installed in one end of described the first underframe, described the 3rd cylinder is anchored on underframe through rotating disk, on the upper end face of described underframe mounting blocks, have third party's shape groove and through hole, in described third party's shape groove, fix to clamp seat, described clamping seats is positioned at the top of rotating disk, the first side jacking block and the second side jacking block are installed respectively in the both sides of described clamping seats, be positioned at jacking block in the rear end clamping of clamping seats, described upper jacking block, the first side jacking block and the second side jacking block are by three clampings of square tongue, the rear end that is positioned at clamping seats is provided with the second guide rod by fixed block, and the head of described the second guide rod is installed lead, the rear end of described the second side jacking block is also connected with four-cylinder, the structure of described clamping seats is: the described clamping seats shape structure that meets at right angles, the bending part of described clamping seats is provided with the arc groove of level, the middle part of described clamping seats has the first draw-in groove of installing jacking block, a side that is positioned at clamping seats has the first rectangular channel, the second side jacking block is installed in described the first rectangular channel, and the rear end that is positioned at clamping seats has the first square groove, described the first side jacking block shape structure that meets at right angles, is positioned at wherein and has installing hole on a right-angle side, and have chamfering at the top of right-angle side, and the front end of described the first side jacking block has trough with straight angle, described the second side jacking block shape structure that meets at right angles, the outer end of its first right-angle side is connected with four-cylinder, and its second right-angle side is connected in clamping seats, and is formed with clamping area at the head of the second right-angle side, the structure of described the first underframe is: comprise the underframe body of the tapered structure of cross section, one end of described underframe body has Long Circle hole, and the other end of described the first underframe body has the second square groove, and has the second rectangular channel in a side of the second square groove.

The structure of described longitudinal conveying perforating mechanism is: comprise clamping device, described clamping device uplink is connected to longitudinal perforating mechanism, and the front end of described clamping device is connected conveyer belt; The structure of described clamping device is: comprise the clamping base that vertical direction is placed, described clamping base becomes rectangular structure, one upper lateral part of described clamping base offers the second draw-in groove, and described the second draw-in groove top is extended with projection, and described projection front end forms clamping area; In described the second draw-in groove, be connected with clamping plate, on described clamping plate, have a plurality of square grooves, described clamping plate bottom is installed on fixed head, described fixed head top is connected with conveying cylinder by the first installing plate, the output of described conveying cylinder connects the 4th guide pad, and described the 4th guide pad head is provided with clamping area; Be positioned on the clamping base of the second draw-in groove below and be vertically installed with the 3rd riser, described the 3rd riser one side is fixed with the second telescopic cylinder, and the output of described the second telescopic cylinder connects clamp, and described clamp head is provided with clamping area; Described clamping base bottom is connected with second installing plate parallel with clamping plate, on described the second installing plate, fix the 3rd lift cylinder, the output of described the 3rd lift cylinder connects block, and described block is connected in the square groove of clamping plate, and described block upper end sidepiece is clamping area; The structure of described longitudinal perforating mechanism is: comprise supporting seat, described supporting seat is a hollow cuboid framework, described supporting seat top fixed installation base plate, the both sides of described mounting base offer telescopic rail, described telescopic rail connects the 3rd installing plate by the 5th slide block, affixed the first telescopic cylinder in described mounting base one end, the output of described the first telescopic cylinder and the 3rd installing plate are affixed; Affixed the 6th contiguous block of described the 3rd installing plate vertical direction, affixed bracing frame inside described the 6th contiguous block, described the 6th contiguous block arranged outside has cross slide way; The 5th contiguous block along its slip is installed on described cross slide way, on described the 6th contiguous block, be fixed with the first lateral cylinder, the output of described the first lateral cylinder and the 5th contiguous block are affixed, described the 5th contiguous block outside is fixed with the 4th contiguous block, on described the 4th contiguous block, offer longitudinal rail, on described longitudinal rail, by the 3rd mount pad, fix the 3rd motor, the top of described the 3rd mount pad is by the first mounting cover by the 3rd motor locking, and the output of described the 3rd motor is installed drill bit; Also comprise the first longitudinal cylinder being connected on the 4th contiguous block, the output of described first longitudinal cylinder and the 3rd mount pad are affixed; Described drill bit docks with the required tapping of square tongue; Described supporting seat centre position is provided with a vertical plate.

The clamping area of described clamp and the clamping area of projection are oppositely arranged, and the clamping area of described block upper end sidepiece and the clamping area of the 4th guide pad head are oppositely arranged; Clamping area described above clamps square tongue on four sides.

The structure of described horizontal perforating mechanism is: comprise horizontally disposed the second underframe, the 4th riser is installed in one end of described the second underframe, one side of described the 4th riser is fixed with the 4th base plate, on described the 4th base plate, be provided with the 5th guide rail, on described the 5th guide rail, by the 6th slide block, the 3rd slide plate is installed, on described the 3rd slide plate, fix the 3rd base, on described the 3rd base, the 4th motor is installed, the output of described the 4th motor is installed drill bit, and described the 4th motor lock onto on the 3rd base by the second mounting cover; Also comprise promotion cylinder, the output of described promotion cylinder and the 3rd slide plate are fixed; Also comprise the guide plate being arranged on the 4th riser, described guide plate and the 4th riser at right angle setting, on described guide plate, through there being the 3rd guide pillar, described the 3rd guide pillar docks with the 3rd slide plate.

The described structure that polishes mechanism is: the 3rd underframe that comprises into frame-shaped structure, described the 3rd chassis top surface is provided with the second guide rail, on described the second guide rail, by Four-slider, the second base plate is installed, on described the second base plate, the first guide rail is set, described the first guide rail is vertical in locus with the second guide rail, on described the first guide rail, by the 3rd slide block, the first base plate is installed, one end of described the first base plate is vertically provided with the 5th riser, case is installed at the top of described the 5th riser, the outside that is positioned at the 5th riser is provided with the second reductor, on the output revolving shaft of described the second reductor, bistrique is installed, the inner side that is positioned at the 5th riser is provided with the 5th motor that drives the second reductor, also comprise the second lateral cylinder and second longitudinal cylinder, the output of described the second lateral cylinder and the second base plate are connected, and output and first base plate of described second longitudinal cylinder are connected, described the second lateral cylinder is fixed on the sidepiece of the second base plate by installing plate, described second longitudinal cylinder is fixed on the sidepiece of the first base plate by installing plate.

Beneficial effect of the present invention is as follows:

Compact conformation of the present invention, reasonable, easy and simple to handle, by sectioning by the segmentation one by one of square tongue raw material, square tongue after segmentation is entered in clamping device and is clamped by conveyer belt, after clamping, it is longitudinally punched, and is delivered to respectively in the clamp mechanism of rotating disk and clamps after punching, the operational sequence that dial rotation is laterally punched, polished workpiece successively, last discharging output, easy to operate, quick, production efficiency is high.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention.

Fig. 2 is structural representation of the present invention (omission frame).

Fig. 3 is the structural representation of sectioning of the present invention.

Fig. 4 is the structural representation of the shut-off mechanism in sectioning of the present invention.

Fig. 5 is the structural representation of the feed mechanism in sectioning of the present invention.

Fig. 6 is the structural representation of the present invention's the first guide pad.

Fig. 7 is the structural representation of the present invention's the second guide pad.

Fig. 8 is the structural representation of rotating disk clamping conveying device of the present invention.

Fig. 9 is the structural representation at another visual angle of rotating disk clamping conveying device of the present invention.

Figure 10 is the structural representation of clamping device of the present invention.

Figure 11 is the structural representation of clamping seats of the present invention.

Figure 12 is the structural representation of the present invention's the first side jacking block.

Figure 13 is the structural representation of the present invention's the second side jacking block.

Figure 14 is the structural representation of underframe of the present invention.

Figure 15 is the structural representation of underframe mounting blocks of the present invention.

Figure 16 is the structural representation that the present invention longitudinally carries perforating mechanism.

Figure 17 is the structural representation of the longitudinal perforating mechanism of the present invention.

Figure 18 is the structural representation of clamp mechanism of the present invention.

Figure 19 is the structural representation of clamping seats of the present invention.

Figure 20 is the structural representation of the horizontal perforating mechanism of the present invention.

Figure 21 is the structural representation that the present invention polishes mechanism.

Wherein: 1, shut-off mechanism; 2, feed mechanism; 101, motor mount; 102, the first motor; 103, the 3rd guide rail; 104, the first riser; 105, the first slide block; 106, the first slide plate; 107, the first reductor; 108, cutter; 109, the first base; 110, the 3rd base plate; 111, the first lift cylinder; 112, gripper shoe; 113, the 3rd contiguous block; 114, the first guide rod; 201, the first guide pad; 202, the first guide pillar; 203, the second guide pad; 204, the second guide pillar; 205, joint pin; 206, the first contiguous block; 207, the second contiguous block; 208, second move cylinder; 209, the second slide plate; 210, the second slide block; 211, the 4th guide rail; 212, the second riser; 213, the first cylinder; 214, the second cylinder; 215, the second base; 216, the first mount pad; 217, the second lift cylinder; 218, notch; 219, the first dead bolt reach through hole; 220, the first guide pillar installing hole; 221, joint pin installing hole; 222, square groove; 223, the second guide pillar installing hole; 224, the second dead bolt reach through hole; 22, rotating disk; 23, the second mount pad; 3, the second motor; 4, clamp mechanism; 5, the 3rd telescopic cylinder; 6, the 3rd guide pad; 7, push away post; 8, the 3rd move cylinder; 9, right angle rack; 10, the 4th base; 11, the 3rd cylinder; 12, the first underframe; 13, clamping seats; 14, the first side jacking block; 16, upper jacking block; 17, lead; 18, the second guide rod; 19, the second side jacking block; 20, four-cylinder; 21, underframe mounting blocks; 1201, Long Circle hole; 1202, underframe body; 1203, the second square groove; 1204, the second rectangular channel; 1301, the first draw-in groove; 1302, the first square groove; 1303, the first rectangular channel; 1304, arc groove; 1401, installing hole; 1402, chamfering; 1403, trough with straight angle; 1901, clamping area; 1902, the first right-angle side; 1903, the second right-angle side; 2101, upper end face; 2102, third party's shape groove; 24, longitudinal perforating mechanism; 25, clamping device; 26, conveyer belt; 301, the first mounting cover; 302, the 3rd motor; 303, the 3rd mount pad; 304, first longitudinal cylinder; 305, longitudinal rail; 306, the 4th contiguous block; 307, the 5th contiguous block; 308, the 6th contiguous block; 309, cross slide way; 310, bracing frame; 311, the first lateral cylinder; 312, the 3rd installing plate; 313, the 5th slide block; 314, telescopic rail; 315, the first telescopic cylinder; 316, mounting base; 317, supporting seat; 318, vertical plate; 401, carry cylinder; 402, the first installing plate; 403, fixed head; 404, the 4th guide pad; 405, square tongue; 406, the 3rd riser; 407, clamp; 408, block; 409, clamping plate; 410, the second telescopic cylinder; 411, the 3rd lift cylinder; 412, the second installing plate; 413, clamp base; 414, projection; 415, the second draw-in groove; 501, the 3rd guide pillar; 502, guide plate; 503, the 4th riser; 504, the 4th base plate; 505, the 6th slide block; 506, the 5th guide rail; 507, the 3rd slide plate; 508, promote cylinder; 509, the 4th motor; 510, the second underframe; 511, the second mounting cover; 512, the 3rd base; 601, case; 602, the second reductor; 603, rotating shaft; 604, the 5th motor; 605, the 5th riser; 606, bistrique; 607, the first base plate; 608, the 3rd slide block; 609, the first guide rail; 610, the second lateral cylinder; 611, the second base plate; 612, the second guide rail; 613, Four-slider; 614, the 3rd underframe; 615, second longitudinal cylinder; 27, frame; 28, platform; 29, horizontal perforating mechanism; 30, longitudinally carry perforating mechanism; 31, rotating disk clamping conveying device; 32, sectioning; 33, polish mechanism.

The specific embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described.

As depicted in figs. 1 and 2, the full-automatic processing machine of square tongue of the present embodiment, the frame 27 that comprises frame-shaped structure, on the platform 28 of frame 27, rotating disk clamping conveying device 31 is installed, the outer ring that is positioned at rotating disk clamping conveying device 31 is separately installed with sectioning 32, longitudinally carries perforating mechanism 30, horizontal perforating mechanism 29 and polish mechanism 33, the output of sectioning 32 is connected with longitudinally carrying perforating mechanism 30 by conveyer belt 26, longitudinally carries the output of perforating mechanism 30 to be connected with rotating disk clamping conveying device 31.

As Fig. 3, shown in Fig. 4 and Fig. 5, the structure of sectioning 32 is: comprise shut-off mechanism 1, one side of shut-off mechanism 1 is provided with feed mechanism 2, the structure of shut-off mechanism 1 is: comprise the first base 109, on the first base 109, fix the 3rd base plate 110, the first riser 104 is vertically installed on the 3rd base plate 110, one side of the first riser 104 is provided with the 3rd guide rail 103, on the 3rd guide rail 103, by the first slide block 105, the first slide plate 106 is installed, on the first slide plate 106, be fixed with the first reductor 107, the output of the first reductor 107 is installed cutter 108, the first reductor 107 drives by the first motor 102, the first motor 102 fixing with motor mount 101 on, the opposite side that is positioned at the first riser 104 is also provided with the first guide rod 114, the first guide rod 114 is installed on the 3rd contiguous block 113, the 3rd contiguous block 113 and the first slide plate 106 clampings, be positioned at that on the 3rd base plate 110, to be also fixed with output and the 3rd contiguous block 113 of the first lift cylinder 111, the first lift cylinders 111 affixed, two gripper shoes 112 are also installed on the first riser 104, the structure of feed mechanism 2 is: comprise the second base 215, on the second base 215, be arranged at intervals with two the second risers 212, on the second riser 212, be fixed with the first mount pad 216, on the first mount pad 216, be provided with the 4th guide rail 211, on the 4th guide rail 211, by the second slide block 210, the second slide plate 209 is installed, on the second slide plate 209, be fixed with second and move cylinder 208 and the second guide pad 203, the second guide pillar 204, the second guide pillar 204 heads are installed on the second guide pad 203 to be moved cylinder 208 by the second contiguous block 207 and second and is connected, the outer end that is positioned at the first mount pad 216 is also fixed with output and second slide plate 209 butts of the first cylinder 213, the first cylinders 213, be positioned at the first guide pad 201 is also installed on the first mount pad 216, on the first guide pad 201, be separately installed with the first guide pillar 202 and joint pin 205, the second cylinder 214 is fixed in the bottom surface that is positioned at the first mount pad 216, the output of the second cylinder 214 is vertically fixed with top and joint pin 205 clampings of the first contiguous block 206, the first contiguous blocks 206, the first guide pad 201 and the second guide pad 203 are positioned at same linear position, the bottom that is positioned at the first mount pad 216 is also provided with the second lift cylinder 217.

As shown in Figure 6, the structure of the first guide pad 201 is: the first 201 one-tenth of guide pads rectangular structure, the top of the first guide pad 201 has notch 218, the middle part of the first guide pad 201 has the first dead bolt reach through hole 219 through dead bolt, and a side that is positioned at the first guide pad 201 has the first guide pillar installing hole 220 and joint pin installing hole 221.

As shown in Figure 7, the structure of the second guide pad 203 is: shown in 203 one-tenth rectangular structure of the second guide pad, the top of the second guide pad 203 has square groove 222, the second guide pad 203 middle parts have the second dead bolt reach through hole 224 through dead bolt, and a side that is positioned at the second guide pad 203 has the second guide pillar installing hole 223.

As shown in Figure 8 and Figure 9, rotating disk clamping conveying device 31 structures are: the rotating disk 22 that comprises the circular structure in cross section, the bottom that is positioned at rotating disk 22 is provided with the 4th base 10, being positioned at above rotating disk 22 middle parts the output revolving shaft that is fixed with the second motor 3, the second motors 3 by the second mount pad 23 is connected with rotating disk 22; The even interval of circumferencial direction of rotating disk 22 is provided with a plurality of clamp mechanism 4, be positioned in one of them clamp mechanism 4 shedding mechanism is installed, the structure of shedding mechanism is: comprise right angle rack 9, the upper end sidepiece of right angle rack 9 is fixed with the 3rd and moves cylinder 8, the 3rd output and the 3rd guide pad 6 that moves cylinder 8 fixed, the 3rd guide pad 6 middle parts are installed and are pushed away post 7, and the top that is positioned at the 3rd guide pad 6 is provided with to control and pushes away the 3rd telescopic cylinder 5 that post 7 moves up and down, push away lead 17 butts of post 7 and clamp mechanism 4.

As Figure 10, Figure 11, Figure 12, Figure 13, shown in Figure 14 and Figure 15, the structure of clamp mechanism 4 is: comprise the underframe mounting blocks 21 that is fixed on rotating disk 22 bottoms, 21 one-tenth bending shape structures of underframe mounting blocks, bending part clamping first underframe 12 of underframe mounting blocks 21, the 3rd cylinder 11 is installed in one end of the first underframe 12, the 3rd cylinder 11 is anchored on underframe 12 through rotating disk 22, on the upper end face 2101 of underframe mounting blocks 21, have third party's shape groove 2102 and through hole, in third party's shape groove 2102, fix to clamp seat 13, clamping seats 13 is positioned at the top of rotating disk 22, the first side jacking block 14 and the second side jacking block 19 are installed respectively in the both sides of clamping seats 13, be positioned at jacking block 16 in the rear end clamping of clamping seats 13, upper jacking block 16, the first side jacking block 14 and the second side jacking block 19 are by 405 3 clampings of square tongue, the rear end that is positioned at clamping seats 13 is provided with the head installation lead 17 of the second guide rod 18, the second guide rods 18 by fixed block, the rear end of the second side jacking block 19 is also connected with four-cylinder 20, the structure of clamping seats 13 is: the clamping seats 13 shape structure that meets at right angles, the bending part of clamping seats 13 is provided with the arc groove 1304 of level, the middle part of clamping seats 13 has the first draw-in groove 1301 of installing jacking block 16, a side that is positioned at clamping seats 13 has the first rectangular channel 1303, interior installation the second side jacking block 19 of the first rectangular channel 1303, and the rear end that is positioned at clamping seats 13 has the first square groove 1302, the first side jacking block 14 shape structure that meets at right angles, is positioned at wherein and has installing hole 1401 on a right-angle side, and the front end that has chamfering 1402, the first side jacking blocks 14 at the top of right-angle side has trough with straight angle 1403, the second side jacking block 19 shape structure that meets at right angles, the outer end of its first right-angle side 1902 is connected with four-cylinder 20, and its second right-angle side 1903 is connected in clamping seats 13, and is formed with clamping area 1901 at the head of the second right-angle side 1903, the structure of the first underframe 12 is: the underframe body 1202 that comprises the tapered structure of cross section, one end of underframe body 1202 has Long Circle hole 1201, the other end of the first underframe body 1202 has the second square groove 1203, and has the second rectangular channel 1204 in a side of the second square groove 1203.

As shown in Figure 16, Figure 17, Figure 18 and Figure 19, longitudinally carry the structure of perforating mechanism 30 to be: comprise clamping device 25, clamping device 25 uplinks are connected to longitudinal perforating mechanism 24, the front end of clamping device 25 is connected conveyer belt 26; The structure of clamping device 25 is: comprise the clamping base 413 that vertical direction is placed, clamp 413 one-tenth rectangular structure of base, a upper lateral part that clamps base 413 offers the second draw-in groove 415, the second draw-in groove 415 tops and is extended with projection 414, and projection 414 front ends form clamping area; In the second draw-in groove 415, be connected with clamping plate 409, on clamping plate 409, have a plurality of square grooves, clamping plate 409 bottoms are installed on fixed head 403, fixed head 403 tops are connected with and are carried cylinder 401 by the first installing plate 402, carry output connection the 4th guide pad 404, the four guide pad 404 heads of cylinder 401 to be provided with clamping area; Be positioned at and on the clamping base 413 of the second draw-in groove 415 belows, be vertically installed with the output that the 3rd riser 406, the three riser 406 1 sides are fixed with the second telescopic cylinder 410, the second telescopic cylinders 410 and connect clamp 407, clamp 407 heads are provided with clamping area; Clamp base 413 bottoms and be connected with second installing plate 412 parallel with clamping plate 409, on the second installing plate 412, fix the 3rd lift cylinder 411, the output of the 3rd lift cylinder 411 connects block 408, block 408 is connected in the square groove of clamping plate 409, and block 408 upper end sidepieces are clamping area; Longitudinally the structure of perforating mechanism 24 is: comprise supporting seat 317, supporting seat 317 is a hollow cuboid framework, supporting seat 317 top fixed installation base plates 316, the both sides of mounting base 316 offer telescopic rail 314, telescopic rail 314 connects the 3rd installing plate 312 by the 5th slide block 313, output and the 3rd installing plate 312 of affixed the first telescopic cylinder 315, the first telescopic cylinders 315 in mounting base 316 one end are affixed; Affixed the 6th contiguous block 308, the six contiguous block 308 affixed bracing frame 310, the six contiguous block 308 arranged outside in inner side of the 3rd installing plate 312 vertical directions have cross slide way 309; The 5th contiguous block 307 along its slip is installed on cross slide way 309, on the 6th contiguous block 308, be fixed with the first lateral cylinder 311, the output of the first lateral cylinder 311 and the 5th contiguous block 307 are affixed, the 5th contiguous block 307 outsides are fixed with the 4th contiguous block 306, on the 4th contiguous block 306, offer longitudinal rail 305, on longitudinal rail 305, by the 3rd mount pad 303, fix the 3rd motor 302, the top of the 3rd mount pad 303 is by the first mounting cover 301 by the 3rd motor 302 lockings, and the output of the 3rd motor 302 is installed drill bit; Also comprise that to be connected to output and the 3rd mount pad 303 of first longitudinal cylinder 304, the first longitudinal cylinders 304 on the 4th contiguous block 306 affixed; Drill bit docks with the required tapping of square tongue 405; Supporting seat 317 centre positions are provided with a vertical plate 318.

The clamping area of the clamping area of clamp 407 and projection 414 is oppositely arranged, and the clamping area of the clamping area of block 408 upper end sidepieces and the 4th guide pad 404 heads is oppositely arranged; Above-mentioned clamping area clamps square tongue 405 four sides.

As shown in figure 20, laterally the structure of perforating mechanism 29 is: comprise horizontally disposed the second underframe 510, the 4th riser 503 is installed in one end of the second underframe 510, one side of the 4th riser 503 is fixed with the 4th base plate 504, on the 4th base plate 504, be provided with the 5th guide rail 506, on the 5th guide rail 506, by the 6th slide block 505, the 3rd slide plate 507 is installed, on the 3rd slide plate 507, fix the 3rd base 512, the 4th motor 509 is installed on the 3rd base 512, the output of the 4th motor 509 is installed drill bit, and the 4th motor 509 lock onto on the 3rd base 512 by the second mounting cover 511; Also comprise and promote cylinder 508, the output and the 3rd slide plate 507 that promote cylinder 508 are fixing; Also comprise the guide plate 502 being arranged on the 4th riser 503, guide plate 502 and the 4th riser 503 at right angle settings, pass and have the 3rd guide pillar 501, the three guide pillars 501 to dock with the 3rd slide plate 507 on guide plate 502.

As shown in figure 21, the structure that polishes mechanism 33 is: the 3rd underframe 614 that comprises into frame-shaped structure, the 3rd underframe 614 upper surfaces are provided with the second guide rail 612, on the second guide rail 612, by Four-slider 613, the second base plate 611 is installed, the first guide rail 609 is set on the second base plate 611, the first guide rail 609 is vertical in locus with the second guide rail 612, on the first guide rail 609, by the 3rd slide block 608, the first base plate 607 is installed, one end of the first base plate 607 is vertically provided with the 5th riser 605, case 601 is installed at the top of the 5th riser 605, the outside that is positioned at the 5th riser 605 is provided with the second reductor 602, on the output revolving shaft 603 of the second reductor 602, bistrique 606 is installed, the inner side that is positioned at the 5th riser 605 is provided with the 5th motor 604 that drives the second reductor 602, the output and the second base plate 611 that also comprise the second lateral cylinder 610 and second longitudinal cylinder 615, the second lateral cylinders 610 are connected, and the output of second longitudinal cylinder 615 and the first base plate 607 are connected, the second lateral cylinder 610 is fixed on the sidepiece of the second base plate 611 by installing plate, second longitudinal cylinder 615 is fixed on the sidepiece of the first base plate 607 by installing plate.

In actual use procedure, in the reach through hole that the raw material of side's tongue 405 are opened through the second guide pad 202 and the first guide pad 201 by feed mechanism 2 order, at the first cylinder 213, the second cylinder 214 and second, move under the effect of cylinder 208 respectively, promote dead bolt raw material progressively advance (all processes are by the Stroke Control of cylinder), when reaching Len req, by shut-off mechanism 1, cut off segmentation.Square tongue 405 after cut-out is distinguished clamping in each clamp mechanism 4 of rotating disk 22, respectively by upper jacking block 16, the clamping area of the first side jacking block 14 and the second side jacking block 19 is by 405 3 clampings of square tongue, after clamping, the horizontal perforating mechanism 29 that is arranged on rotating disk 22 outsides respectively the other side's tongue 405 carries out perforate, after a station perforate, rotating disk 22 rotations, rotation to next station carries out perforate, last transposition polishes mechanism 33 places, the other side's tongue 405 surfaces polish, square tongue 405 after completion of processing carries out discharging by shedding mechanism, discharge process is as follows: push away post 7 and stretch out under the effect of the 3rd telescopic cylinder 5, make to push away post 7 and lead 17 butts, now the 3rd move cylinder 8 actions, the 3rd, move under the effect of cylinder 8, push away post 7 promotion side's tongue 405 outputs.

The specific operation process of above-mentioned longitudinal perforate is as follows: square tongue 405 is delivered on clamping plate 409 by conveyer belt 26, now start and carry cylinder 401 to drive the 4th guide pad 404 that square tongue 405 is pushed to projection 414 sides, the clamping area of the 4th guide pad 404 is clamped; Start the 3rd lift cylinder 411, the block 408 being arranged in clamping plate 409 square grooves is lifted, according to the size of square tongue 405, thus the bottom of the height side of the being fixedly clamped tongue 405 that adjusting is lifted; According to the size of square tongue 405, start the distance that the second telescopic cylinder 410 drives clamp 407 adjustment and square tongue 405, a side of the clamping area side of the being fixedly clamped tongue 405 of clamp 407 simultaneously; So, side's tongue 405 is enclosed among the 4th guide pad 404, clamp 407, block 408 and projection 414, the four sides of the side's of being tongue 405 is corresponding clamping all, adjust again the accurate location of drill bit, then by the effect of the first telescopic cylinder 315, the first lateral cylinder 311, first longitudinal cylinder 304, adjust drill bit position, open the 3rd motor 302 and punch, can longitudinally punch by the side's of completing tongue 405.

More than describing is explanation of the invention, is not the restriction to invention, and limited range of the present invention, referring to claim, within protection scope of the present invention, can be done any type of modification.

Claims (10)

1. the full-automatic processing machine of square tongue, it is characterized in that: the frame (27) that comprises frame-shaped structure, on the platform (28) of described frame (27), rotating disk clamping conveying device (31) is installed, the outer ring that is positioned at rotating disk clamping conveying device (31) is separately installed with sectioning (32), longitudinally carry perforating mechanism (30), horizontal perforating mechanism (29) and polish mechanism (33), the output of described sectioning (32) is connected with longitudinally carrying perforating mechanism (30) by conveyer belt (26), the output of described longitudinal conveying perforating mechanism (30) is connected with rotating disk clamping conveying device (31).

2. the full-automatic processing machine of side's tongue as claimed in claim 1, it is characterized in that: the structure of described sectioning (32) is: comprise shut-off mechanism (1), one side of described shut-off mechanism (1) is provided with feed mechanism (2), the structure of described shut-off mechanism (1) is: comprise the first base (109), on described the first base (109), fix the 3rd base plate (110), on described the 3rd base plate (110), the first riser (104) is vertically installed, one side of described the first riser (104) is provided with the 3rd guide rail (103), described the 3rd guide rail (103) is upper installs the first slide plate (106) by the first slide block (105), on described the first slide plate (106), be fixed with the first reductor (107), the output of described the first reductor (107) is installed cutter (108), described the first reductor (107) drives by the first motor (102), described the first motor (102) fixing with motor mount (101) on, the opposite side that is positioned at the first riser (104) is also provided with the first guide rod (114), described the first guide rod (114) is installed on the 3rd contiguous block (113), described the 3rd contiguous block (113) and the first slide plate (106) clamping, be positioned on the 3rd base plate (110) and be also fixed with the first lift cylinder (111), the output of described the first lift cylinder (111) and the 3rd contiguous block (113) are affixed, two gripper shoes (112) are also installed on described the first riser (104), the structure of described feed mechanism (2) is: comprise the second base (215), on described the second base (215), be arranged at intervals with two the second risers (212), on described the second riser (212), be fixed with the first mount pad (216), on described the first mount pad (216), be provided with the 4th guide rail (211), described the 4th guide rail (211) is upper installs the second slide plate (209) by the second slide block (210), on described the second slide plate (209), be fixed with second and move cylinder (208) and the second guide pad (203), upper the second guide pillar (204) of installing of described the second guide pad (203), described the second guide pillar (204) head moves cylinder (208) by the second contiguous block (207) and second and is connected, the outer end that is positioned at the first mount pad (216) is also fixed with the first cylinder (213), the output of described the first cylinder (213) and the second slide plate (209) butt, be positioned at the first guide pad (201) is also installed on the first mount pad (216), on described the first guide pad (201), be separately installed with the first guide pillar (202) and joint pin (205), the second cylinder (214) is fixed in the bottom surface that is positioned at the first mount pad (216), the output of described the second cylinder (214) is vertically fixed with the first contiguous block (206), the top of described the first contiguous block (206) and joint pin (205) clamping, described the first guide pad (201) and the second guide pad (203) are positioned at same linear position, the bottom that is positioned at the first mount pad (216) is also provided with the second lift cylinder (217).

3. the full-automatic processing machine of side's tongue as claimed in claim 2, it is characterized in that: the structure of described the first guide pad (201) is: described the first guide pad (201) becomes rectangular structure, the top of described the first guide pad (201) has notch (218), the middle part of described the first guide pad (201) has the first dead bolt reach through hole (219) through dead bolt, and a side that is positioned at the first guide pad (201) has the first guide pillar installing hole (220) and joint pin installing hole (221).

4. the full-automatic processing machine of side's tongue as claimed in claim 2, it is characterized in that: the structure of described the second guide pad (203) is: shown in the second guide pad (203) become rectangular structure, the top of described the second guide pad (203) has square groove (222), described the second guide pad (203) middle part has the second dead bolt reach through hole (224) through dead bolt, and a side that is positioned at the second guide pad (203) has the second guide pillar installing hole (223).

5. the full-automatic processing machine of side's tongue as claimed in claim 1, it is characterized in that: described rotating disk clamping conveying device (31) structure is: the rotating disk (22) that comprises the circular structure in cross section, the bottom that is positioned at rotating disk (22) is provided with the 4th base (10), be positioned at rotating disk (22) middle part and by the second mount pad (23), be fixed with the second motor (3) above, the output revolving shaft of described the second motor (3) is connected with rotating disk (22), the even interval of circumferencial direction of described rotating disk (22) is provided with a plurality of clamp mechanism (4), be positioned at the upper shedding mechanism of installing of one of them clamp mechanism (4), the structure of described shedding mechanism is: comprise right angle rack (9), the upper end sidepiece of described right angle rack (9) is fixed with the 3rd and moves cylinder (8), the described the 3rd output and the 3rd guide pad (6) that moves cylinder (8) fixed, described the 3rd guide pad (6) middle part is installed and is pushed away post (7), and the top that is positioned at the 3rd guide pad (6) is provided with to control and pushes away the 3rd telescopic cylinder (5) that post (7) moves up and down, described lead (17) butt that pushes away post (7) and clamp mechanism (4).

6. the full-automatic processing machine of side's tongue as claimed in claim 5, it is characterized in that: the structure of described clamp mechanism (4) is: comprise the underframe mounting blocks (21) that is fixed on rotating disk (22) bottom, described underframe mounting blocks (21) becomes bending shape structure, bending part clamping first underframe (12) of described underframe mounting blocks (21), the 3rd cylinder (11) is installed in one end of described the first underframe (12), described the 3rd cylinder (11) is anchored on underframe (12) through rotating disk (22), on the upper end face (2101) of described underframe mounting blocks (21), have third party's shape groove (2102) and through hole, in described third party's shape groove (2102), fix to clamp seat (13), described clamping seats (13) is positioned at the top of rotating disk (22), the first side jacking block (14) and the second side jacking block (19) are installed respectively in the both sides of described clamping seats (13), be positioned at jacking block (16) in the rear end clamping of clamping seats (13), described upper jacking block (16), the first side jacking block (14) and the second side jacking block (19) are by (405) three clampings of square tongue, the rear end that is positioned at clamping seats (13) is provided with the second guide rod (18) by fixed block, and the head of described the second guide rod (18) is installed lead (17), the rear end of described the second side jacking block (19) is also connected with four-cylinder (20), the structure of described clamping seats (13) is: described clamping seats (13) the shape structure that meets at right angles, the bending part of described clamping seats (13) is provided with the arc groove (1304) of level, the middle part of described clamping seats (13) has the first draw-in groove (1301) of installing jacking block (16), a side that is positioned at clamping seats (13) has the first rectangular channel (1303), the second side jacking block (19) is installed in described the first rectangular channel (1303), and the rear end that is positioned at clamping seats (13) has the first square groove (1302), described the first side jacking block (14) shape structure that meets at right angles, is positioned at wherein and has installing hole (1401) on a right-angle side, and have chamfering (1402) at the top of right-angle side, and the front end of described the first side jacking block (14) has trough with straight angle (1403), described the second side jacking block (19) shape structure that meets at right angles, the outer end of its first right-angle side (1902) is connected with four-cylinder (20), its second right-angle side (1903) is connected in clamping seats (13), and is formed with clamping area (1901) at the head of the second right-angle side (1903), the structure of described the first underframe (12) is: the underframe body (1202) that comprises the tapered structure of cross section, one end of described underframe body (1202) has Long Circle hole (1201), the other end of described the first underframe body (1202) has the second square groove (1203), and has the second rectangular channel (1204) in a side of the second square groove (1203).

7. the full-automatic processing machine of side's tongue as claimed in claim 1, it is characterized in that: the structure of described longitudinal conveying perforating mechanism (30) is: comprise clamping device (25), described clamping device (25) uplink is connected to longitudinal perforating mechanism (24), and the front end of described clamping device (25) is connected conveyer belt (26), the structure of described clamping device (25) is: comprise the clamping base (413) that vertical direction is placed, described clamping base (413) becomes rectangular structure, one upper lateral part of described clamping base (413) offers the second draw-in groove (415), described the second draw-in groove (415) top is extended with projection (414), and described projection (414) front end forms clamping area, in described the second draw-in groove (415), be connected with clamping plate (409), described clamping plate has a plurality of square grooves on (409), described clamping plate (409) bottom is installed on fixed head (403), described fixed head (403) top is connected with and is carried cylinder (401) by the first installing plate (402), the output of described conveying cylinder (401) connects the 4th guide pad (404), and described the 4th guide pad (404) head is provided with clamping area, be positioned on the clamping base (413) of the second draw-in groove (415) below and be vertically installed with the 3rd riser (406), described the 3rd riser (406) one sides are fixed with the second telescopic cylinder (410), the output of described the second telescopic cylinder (410) connects clamp (407), and described clamp (407) head is provided with clamping area, described clamping base (413) bottom is connected with second installing plate (412) parallel with clamping plate (409), on described the second installing plate (412), fix the 3rd lift cylinder (411), the output of described the 3rd lift cylinder (411) connects block (408), described block (408) is connected in the square groove of clamping plate (409), and described block (408) upper end sidepiece is clamping area, the structure of described longitudinal perforating mechanism (24) is: comprise supporting seat (317), described supporting seat (317) is a hollow cuboid framework, described supporting seat (317) top fixed installation base plate (316), the both sides of described mounting base (316) offer telescopic rail (314), described telescopic rail (314) connects the 3rd installing plate (312) by the 5th slide block (313), affixed the first telescopic cylinder in described mounting base (316) one end (315), the output of described the first telescopic cylinder (315) and the 3rd installing plate (312) are affixed, affixed the 6th contiguous block (308) of described the 3rd installing plate (312) vertical direction, described the 6th contiguous block (308) inner side affixed bracing frame (310), described the 6th contiguous block (308) arranged outside has cross slide way (309), upper the 5th contiguous block (307) of installing along its slip of described cross slide way (309), on described the 6th contiguous block (308), be fixed with the first lateral cylinder (311), the output of described the first lateral cylinder (311) and the 5th contiguous block (307) are affixed, described the 5th contiguous block (307) outside is fixed with the 4th contiguous block (306), on described the 4th contiguous block (306), offer longitudinal rail (305), described longitudinal rail (305) is upper fixes the 3rd motor (302) by the 3rd mount pad (303), lock the 3rd motor (302) by the first mounting cover (301) at the top of described the 3rd mount pad (303), the output of described the 3rd motor (302) is installed drill bit, also comprise the first longitudinal cylinder (304) being connected on the 4th contiguous block (306), the output of described first longitudinal cylinder (304) and the 3rd mount pad (303) are affixed, described drill bit docks with the required tapping of square tongue (405), described supporting seat (317) centre position is provided with a vertical plate (318).

8. the full-automatic processing machine of side's tongue as claimed in claim 7, it is characterized in that: the clamping area of the clamping area of described clamp (407) and projection (414) is oppositely arranged, the clamping area of described block (408) upper end sidepiece and the clamping area of the 4th guide pad (404) head are oppositely arranged; Clamping area described above clamps square tongue (405) four sides.

9. the full-automatic processing machine of side's tongue as claimed in claim 1, it is characterized in that: the structure of described horizontal perforating mechanism (29) is: comprise horizontally disposed the second underframe (510), the 4th riser (503) is installed in one end of described the second underframe (510), one side of described the 4th riser (503) is fixed with the 4th base plate (504), on described the 4th base plate (504), be provided with the 5th guide rail (506), described the 5th guide rail (506) is upper installs the 3rd slide plate (507) by the 6th slide block (505), on described the 3rd slide plate (507), fix the 3rd base (512), upper the 4th motor (509) of installing of described the 3rd base (512), the output of described the 4th motor (509) is installed drill bit, described the 4th motor (509) lock onto on the 3rd base (512) by the second mounting cover (511), also comprise and promote cylinder (508), the output of described promotion cylinder (508) and the 3rd slide plate (507) are fixing, also comprise the guide plate (502) being arranged on the 4th riser (503), described guide plate (502) and the 4th riser (503) at right angle setting, described guide plate (502) is upper through there being the 3rd guide pillar (501), and described the 3rd guide pillar (501) docks with the 3rd slide plate (507).

10. the full-automatic processing machine of side's tongue as claimed in claim 1, it is characterized in that: described in polish mechanism (33) structure be: the 3rd underframe (614) that comprises into frame-shaped structure, described the 3rd underframe (614) upper surface is provided with the second guide rail (612), described the second guide rail (612) is upper installs the second base plate (611) by Four-slider (613), the first guide rail (609) is set on described the second base plate (611), described the first guide rail (609) is vertical in locus with the second guide rail (612), described the first guide rail (609) is upper installs the first base plate (607) by the 3rd slide block (608), one end of described the first base plate (607) is vertically provided with the 5th riser (605), case (601) is installed at the top of described the 5th riser (605), the outside that is positioned at the 5th riser (605) is provided with the second reductor (602), the upper bistrique (606) of installing of output revolving shaft (603) of described the second reductor (602), the inner side that is positioned at the 5th riser (605) is provided with the 5th motor (604) that drives the second reductor (602), also comprise the second lateral cylinder (610) and second longitudinal cylinder (615), the output of described the second lateral cylinder (610) and the second base plate (611) are connected, and the output of described second longitudinal cylinder (615) and the first base plate (607) are connected, described the second lateral cylinder (610) is fixed on the sidepiece of the second base plate (611) by installing plate, described second longitudinal cylinder (615) is fixed on the sidepiece of the first base plate (607) by installing plate.